Credo, a global innovation leader in Serializer-Deserializer (SerDes) technology, today announced it will conduct optical and electrical demonstrations utilizing its low power, high performance 112Gbps (G) PAM4 SerDes technology and solutions at the 2018 Optical Networking and Communication Conference (OFC). The 112G SerDes technology was developed in mature TSMC process technologies. For 112G per lambda optical connectivity (i.e., DR, DR4, FR4), Credo has delivered product solutions in TSMC 28nm. For 112G electrical VSR and LR reaches, Credo has delivered the solutions in TSMC 16nm. The conference starts today at the San Diego Convention Center, with exhibits taking place March 13–15.

January 31, 2018 | TE Connectivity and Credo pave the way for 112G single lane connectivity; Live demonstration for the first time at DesignCon 2018

TE Connectivity (TE), a world leader in connectivity and sensors, and Credo, a leading provider of high performance, mixed-signal semiconductor solutions for the data center, enterprise networking and high performance computing markets, today announced they have teamed up to demonstrate the future of networking technologies.

Credo Semiconductor, a global innovation leader in Serializer-Deserializer (SerDes) technology, today announced that it received TSMC’s 2017 Open Innovation Platform Partner of the Year Award in the category of Specialty Technology IP.

Credo Semiconductor, a global innovation leader in Serializer-Deserializer (SerDes) technology, today announced it will demonstrate its full offering of advanced SerDes IP at this week’s TSMC Technology Symposium, showcasing single-lane 112G PAM4 SerDes solutions. The wide range of Credo SerDes IP solutions enables ASIC, ASSP, and SoC designers to meet the power and performance requirements of a variety of TSMC advanced processing nodes and supports emerging IEEE standards including 802.3cd/802.3bs/802.3bm which call out 100GBase-DR1, 400GBase-DR4, and 400GBase-FR4.

Credo Semiconductor, a global innovation leader in Serializer-Deserializer (SerDes) technology, and Foxconn Interconnect Technology, Inc. ("FIT"), a leading supplier of interconnect solutions, announced today that they will demonstrate robust and error-free 100G QSFP28 active copper cable (ACC) connectivity solutions with reach up to 10 meters (m) in a private suite at the Grand Hyatt during the Computex Show, May 30-June 3, in Taipei.

Credo today announced it will demonstrate its full offering of advanced SerDes IP at the upcoming TSMC Open Innovation Platform® (OIP) Ecosystem Forum, including a new single-lane 112G PAM-4 short reach (SR) IP solution and a new long reach (LR) 56Gbps PAM-4 SerDes IP solution.

Credo Semiconductor, a global innovation leader in Serializer-Deserializer (SerDes) technology, today announced the availability of its 28G and 56G PAM-4 SerDes transceiver IP on TSMC’s 16-nm FinFET Compact (16FFC) process, enabling its growing customer base to take advantage of the low-power benefits of this advanced, new process in next-generation designs.

Credo Semiconductor, a global innovation leader in Serializer-Deserializer (SerDes) technology, today announced it is expanding its product offering with a new retimer family that leverages the company’s unique 25G SerDes architecture to deliver industry-leading power and reach.

Credo Semiconductor, a global innovation leader in Serializer-Deserializer (SerDes) technology, today announced that it has raised over $8 million in Series A funding led by global venture capital firm, Walden International. In addition to scaling every aspect of the Credo operation, the funding will be used to expand the development and deployment of its leading-edge SerDes IP and complementary high-speed interconnect devices.

Credo is a provider of high performance mixed-signal integrated circuits used in high bandwidth applications, ranging from cloud-scale data center to high performance computing to enterprise networks. Founded in 2008, our technologies enable optimized solutions that demand leading edge speed, power, and signal processing requirements.